Detection and genomic characterization of hepatitis E virus genotype 3 from pigs in Ghana, Africa.

One Health Outlook Pub Date : 2020-07-20 eCollection Date: 2020-01-01 DOI:10.1186/s42522-020-00018-3
Philip El-Duah, Dickson Dei, Tabea Binger, Augustina Sylverken, Robert Wollny, William Tasiame, Samuel Oppong, Yaw Adu-Sarkodie, Benjamin Emikpe, Raphael Folitse, Jan Felix Drexler, Richard Phillips, Christian Drosten, Victor Max Corman
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引用次数: 5

Abstract

Background: Hepatitis E virus (HEV) is a major cause of human hepatitis worldwide. Zoonotic genotypes of the virus have been found in diverse animal species with pigs playing a major role. Putative risk of zoonotic infection from livestock particularly swine in Sub-Saharan Africa including Ghana is poorly understood due to scarcity of available data, especially HEV sequence information.

Methods: Serum samples were collected from cattle, sheep, goats and pigs from Kumasi in the Ashanti region of Ghana. Samples were subjected to nested RT-PCR screening and quantification of HEV RNA-positive samples using real-time RT-PCR and the World Health Organization International Standard for HEV. Testing of all pig samples for antibodies was done by ELISA. Sanger sequencing and genotyping was performed and one representative complete genome was generated to facilitate genome-wide comparison to other available African HEV sequences by phylogenetic analysis.

Results: A total of 420 samples were available from cattle (n = 105), goats (n = 124), pigs (n = 89) and sheep (n = 102). HEV Viral RNA was detected only in pig samples (10.1%). The antibody detection rate in pigs was 77.5%, with positive samples from all sampling sites. Average viral load was 1 × 105 (range 1.02 × 103 to 3.17 × 105) International Units per mL of serum with no statistically significant differences between age groups (≤ 6 month, > 6 months) by a T-test comparison of means (t = 1.4272, df = 7, p = 0.1966). Sequences obtained in this study form a monophyletic group within HEV genotype 3. Sequences from Cameroon, Ghana, Burkina Faso and Madagascar were found to share a most recent common ancestor; however this was not the case for other African HEV sequences.

Conclusion: HEV genotype 3 is highly endemic in pigs in Ghana and likely poses a zoonotic risk to people exposed to pigs. HEV genotype 3 in Ghana shares a common origin with other virus strains from Sub-Saharan Africa.

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非洲加纳猪戊型肝炎病毒基因3型的检测和基因组特征
背景:戊型肝炎病毒(HEV)是世界范围内人类肝炎的主要病因。该病毒的人畜共患基因型已在多种动物物种中发现,其中猪起主要作用。由于缺乏可用数据,特别是戊型肝炎病毒序列信息,人们对包括加纳在内的撒哈拉以南非洲地区牲畜(尤其是猪)人畜共患感染的推定风险知之甚少。方法:采集加纳阿散蒂地区库马西牛、绵羊、山羊和猪的血清样本。对样品进行巢式RT-PCR筛选,对HEV rna阳性样品采用实时RT-PCR和世界卫生组织HEV国际标准进行定量。所有猪样本的抗体检测均采用ELISA法进行。进行了Sanger测序和基因分型,并生成了一个具有代表性的完整基因组,以便通过系统发育分析与其他可用的非洲HEV序列进行全基因组比较。结果:共获得牛(105份)、山羊(124份)、猪(89份)和绵羊(102份)共420份样本。HEV病毒RNA仅在猪样本中检测到(10.1%)。猪的抗体检出率为77.5%,所有采样点均呈阳性。平均病毒载量为1 × 105(范围1.02 × 103 ~ 3.17 × 105)国际单位/ mL血清,各组(≤6个月和> 6个月)间均数比较t检验差异无统计学意义(t = 1.4272, df = 7, p = 0.1966)。本研究中获得的序列在HEV基因型3中形成一个单系群。来自喀麦隆、加纳、布基纳法索和马达加斯加的基因序列被发现拥有最近的共同祖先;然而,其他非洲HEV序列并非如此。结论:HEV基因3型在加纳的猪中高度流行,可能对接触猪的人构成人畜共患风险。加纳的HEV基因3型与来自撒哈拉以南非洲的其他病毒株有共同的起源。
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